Project Details
GRK 1570: Electronic Properties of Carbon-based Nanostructures
Subject Area
Condensed Matter Physics
Term
from 2009 to 2018
Project identifier
Deutsche Forschungsgemeinschaft (DFG) - Project number 89249669
Aim of the Research Training Group is the experimental and theoretical investigation of electronic properties of carbon-based nanostructures (CBNs), i.e., devices based on graphene, carbon nanotubes, aromatic molecules or hybrids of those. We shall focus on: (1) the electrical properties, also as influenced by mechanical and vibrational degrees of freedom, of the recently discovered single-layer, multi-layer and nanopatterned graphene; (2) unexplored features of carbon nanotubes-based quantum wires, in which the tubes are suspended, functionalised for biosensor applications or utilised as nanoleads for transport across aromatic molecules; (3) vibronic and switching effects in scanning-tunnelling spectroscopy of molecules and in single-molecule single-electron transistors. Experimentally, we aim at the characterisation, control and manipulation of CBNs with various complementary tools, comprising non-equilibrium transport experiments in two- and three-terminal configurations and in Hall geometry; time-resolved Raman spectroscopy; scanning tunnelling spectroscopy and atomic force imaging. From the theoretical point of view, we shall perform fully quantum mechanical and semiclassical transport calculations aiming at a qualitative and quantitative understanding of the properties of the experimentally investigated CBNs. A close collaboration between theoretical and experimental groups is envisaged. The Research Training Group will be built on and complement the existing scientific strongholds of the physics department in the field of nanoscience, ranging from spin-electronics to quantum information and molecular electronics. The collaboration with the chemistry department will strengthen the existing activities in the field of molecular electronics, offering the opportunity to combine top-down and bottom-up approaches. The interdisciplinary character of the research programme, involving groups from theoretical and experimental condensed matter physics as well as from organic and analytical chemistry, will be reflected in the teaching, seminar and workshop programme of the Research Training Group. Thematic lectures and seminars, accessible to all students of the Research Training Group, will provide a common language and knowledge and give the doctoral students the opportunity of a multifaceted scientific education, usually not available during PhD studies.
DFG Programme
Research Training Groups
Applicant Institution
Universität Regensburg
Spokesperson
Professorin Dr. Milena Grifoni
Participating Researchers
Privatdozent Dr. Jonathan Eroms; Professor Dr. Jaroslav Fabian; Professor Dr. Sergey Ganichev; Professor Dr. Franz J. Giessibl; Professor Dr. Rupert Huber; Professor Dr. John Lupton; Professor Dr. Jascha Repp; Professor Dr. Klaus Richter; Professor Dr. John Schliemann; Professor Dr. Christian Schüller; Professor Dr. Christoph Strunk; Professor Dr. Dieter Weiss